Dry Bath Incubator NDBI-400 features a single aluminium block with a temperature range from RT up to 150°C and ±0.5°C stability. Our fixed safety circuit at 180°C ensures protection during prolonged use. It is a compact dry bath incubator designed for precise and reliable heating of small samples. Our LED display offers clear visibility of temperature and timer settings. This lightweight build makes it easy to handle and relocate within the lab.
$1,113.00
Specifications
| Number of Blocks | 1 |
| Ambient Temperature Range | 5 to 40°C |
| Relative Humidity | ≤ 80% |
| Heat Output | 165 W |
| Heating Temperature Range | RT +5°C to 150°C |
| Temperature Display | LED |
| Resolution (Adjustment/Display) | 0.1 K |
| Temperature Stability at 37°C | ±0.5°C |
| Temperature Stability at 60°C | ±0.5°C |
| Temperature Uniformity at 37°C | ±0.5°C |
| Set-up Plate Material | Aluminium alloy |
| Time Setting Range | 1 min to 99 h 59 min |
| Fixed Safety Circuit | 180°C |
| Power Supply | 200 to 240V / 115V, 50/60Hz |
| Plate Dimensions | 96 × 76 mm |
| Dimensions (W × H × D) | 152 × 86 × 190 mm |
| Weight | 1.5 kg |
Features
Applications
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FAQ for Dry Bath Incubator NDBI-400
1: What type of samples can be used with the Dry Bath Incubator NDBI-400?
It is suitable for microtubes, PCR tubes, and small reaction vessels commonly used in molecular biology and clinical labs.
2: Can I adjust both time and temperature independently in NDBI-400?
Yes, the unit allows independent adjustment of temperature and time via a user-friendly LED control interface.
3: Is the device suitable for continuous operation?
Yes, Dry Bath Incubator NDBI-400 supports extended runs up to 99 hours and 59 minutes with stable temperature control.
4: Does the Dry Bath Incubator NDBI-400 include any safety features?
It features a fixed safety circuit that activates at 180°C to prevent overheating and protect samples and users.
5: Is the block interchangeable or fixed?
Dry Bath Incubator NDBI-400 includes a single fixed aluminium block designed for uniform heating and optimal thermal conductivity.
